RIM Modules - RTM Options for Mezzanine I/O
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Key Features
- Generic RIM modules providing access to XMC Pn6 I/O signals on Curtiss-Wright RTM modules
- RIM modules available supporting both low speed and high speed differential signaling
Applications
- For systems needing breakout I/O from XMC mezzanine cards mounted on VPX modules
- For customers requiring their own cabling solutions
XMC-120 Intel "Bay Trail" Atom Processor
The XMC-120 from Curtiss-Wright Defense Solutions is a small form factor and low power x86 single board computer (SBC). Designed for space-constrained size, weight and power (SWaP)- sensitive...
VPX3-131 3U VPX SBC with NXP Power Architecture P4080 Processor
The VPX3-131 3U OpenVPX Power Architecture Single Board Computer (SBC) combines the performance and I/O capabilities of NXP's P4080 QorIQ Octal processor with an extensive I/O complement to provide...
VPX3-133 3U VPX SBC with NXP Power Architecture T2080 Processor
The VPX3-133 3U VPX Power Architecture Single Board Computer (SBC) is designed with the NXP QorIQ T2080 processor. The T2080 with its 4 dual threaded 64-bit Power Architecture cores, each equipped...
VPX3-716 3U VPX/OpenVPX AMD E8860 Graphics Processor
The VPX3-716 is an industry-leading rugged 3U VPX/OpenVPX, high performance graphics processor based on the AMD Radeon E8860 Graphics Processing Unit (GPU). The E8860 meets the long lifecycle...
VPX3-1258 3U OpenVPX Intel Core i7 Haswell SBC
This product is not recommended for new designs. Please see the VPX3-1260 for a suitable substitute. The VPX3-1258 from Curtiss-Wright Defense Solutions is a high performance Single Board...
VPX3-1259 3U VPX Intel Core i7 Broadwell SBC
The VPX3-1259 from Curtiss-Wright Defense Solutions is a high performance Single Board Computer (SBC) featuring the 5th Generation Intel Core i7 (Broadwell) processor. Pin-compatible with our...
In today’s market, customers are looking to maximize their I/O capabilities without adding extra hardware. The use of PMC or XMC mezzanine modules provides this ease of expansion.
While I/O from a single board computer (SBC) in a development system can be accessed through the Rear Transition Module (RTM), I/O originating from a mezzanine card is often much more difficult to access in a lab or development environment. Many Curtiss-Wright RTM modules provide a simple expansion connector, permitting easy breakout of front mezzanine module I/O signals using an RTM Interface Module, or RIM. A RIM module mounted on the RTM enables easy access to the mezzanine I/O signals. Curtiss-Wright offers two RIM module variants for this purpose – a low speed variant and a high speed variant. Both variants support 3U and 6U RTM designs and attach to the RTM through a VITA 61 XMC connector which directly maps to the front module’s XMC Pn6 I/O connector.
While many Curtiss-Wright modules already have custom-designed RIMs to break out specific I/O signals to pre-defined connectors, other custom solutions or mezzanines that do not have breakout RIMs can use either of these variants.
Both variants can be used on the following Curtiss-Wright RTMs, as well as any 3rd party RTM that supports Pn6 module I/O:
- RTM3-131
- RTM3-716
- RTM6-1958
- RTM3-1258-1xxx
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